CN112653750A - High-concurrency high-availability Internet of things platform solution - Google Patents

Abstract

The invention discloses a high-concurrency high-availability Internet of things platform solution, which comprises the following steps of; step 1: applying for a special APN from an operator and establishing a sensing network platform; step 2: installing the APN card with the set special line APN information and capable of using the intranet IP address into a controlled 5G module, and establishing a safety supervision platform; and step 3: and the 5G module of the controlled equipment performs user authentication on the GGSN during the first operation, and after the authentication is passed, the equipment management server is accessed to a sensing network layer, and the intelligent gateway of the Internet of things is installed outside the intelligent sensor. The invention establishes a stable, efficient and flexible information system operation and maintenance management system, provides powerful support for the normal operation of the Internet of things system, improves the operation efficiency of the information system, improves the service quality, can realize effective, accurate, real-time and safe information interaction between the object terminal and the manager and the user, and ensures the safety and stability of operation.

Description

High-concurrency high-availability Internet of things platform solution

Technical Field

The invention relates to the technical field of Internet of things, in particular to a high-concurrency high-availability Internet of things platform solution.

Background

With the continuous development of social economy, science and technology are continuously innovated, more and more new science and technology and new technology are continuously created, people enter the information-based era, the internet of things is an important component of the information technology of the new generation and is also an important development stage of the information-based era, the internet of things is wide in application, with the rapid development of intelligent equipment markets of the industries such as domestic logistics, home intelligence, mechanical control, medical treatment, environmental protection and the like, various intelligent home manufacturers try out the field of the internet of things, and the technology for remotely controlling intelligent equipment products is a development direction of the future mainstream, so that the region limitation can be broken through, various networks are used for bearing and transmitting data information, and people can obtain convenient information resources anytime and anywhere.

With the development of the highly-concurrent highly-available internet of things platform, the internet of things rapidly becomes a main consumption channel of people with the advantages of convenient consumption mode, rapid payment mode, rapid propagation, comprehensive coverage and the like, and private information such as mobile phone numbers, bank cards and the like is involved in the process, so that the information security of the internet of things is enhanced, lawless persons are prevented from stealing the private information of people by using illegal means, irrecoverable economic loss is avoided, and how to realize reliable, accurate, timely and safe transmission is a key link of the internet of things.

Disclosure of Invention

The invention aims to provide a high-concurrency high-availability Internet of things platform solution to solve the problem of how to realize reliable, accurate, timely and safe transmission in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a high-concurrency high-availability Internet of things platform solution comprises the following steps;

step 1: applying for a special APN from an operator and establishing a sensing network platform;

step 2: installing the APN card with the set special line APN information and capable of using the intranet IP address into a controlled 5G module, and establishing a safety supervision platform;

and step 3: the 5G module of the controlled equipment performs user authentication on GGSN during the first operation, after the authentication is passed, the gateway is accessed to a sensing network layer where an equipment management server is located, the intelligent gateway of the Internet of things is installed outside the intelligent sensor, the intelligent gateway of the Internet of things is used as a central sensing node, and a plurality of intelligent sensors can be accessed simultaneously, so that the centralized communication and management of the intelligent sensors are realized;

and 4, step 4: the equipment management server is connected to the Internet through a GRE router, can access the controlled equipment through an APN channel, and establishes a network security monitoring module;

and 5: the terminal equipment of the user can access the intelligent remote control system provided by the equipment management server through the public network IP address of the equipment management server to control the controlled equipment and establish a management layer;

step 6: when a user operates equipment through an intelligent remote control system, an equipment management server initiates a connection request to the controlled equipment through an internal network IP address of the specified controlled equipment and establishes a protective layer;

and 7: after the connection is established, the equipment management server sends a control instruction to the controlled equipment and establishes a platform layer;

and 8: after receiving the instruction, the controlled equipment executes the instruction, completes the control operation and feeds back the operation result;

and step 9: and after receiving the operation result, the equipment management server disconnects the TCP or UDP connection with the equipment, feeds back the operation result to the client, and performs related data processing and analysis.

Preferably, the sensor network platform comprises a local communication module, a remote communication module, a data management module and a communication protocol conversion module.

Preferably, the safety supervision platform comprises an event data management module, an analysis and statistics module, a control measure module and a grading reporting module;

the event data management module is used for receiving real-time safety acquisition data of each module such as a network manager, an installation manager and the like;

the analysis and statistics module is used for screening, comparing and analyzing the collected logs according to the alarm levels and categories;

the control measure module is used for taking corresponding control measures for abnormal access or attack behaviors;

the grading reporting module is used for reporting to the upper level supervision platform when a high level security alarm event occurs.

Preferably, the security supervision platform further comprises an auxiliary management module, which implements dynamic management of IP addresses.

Preferably, in the step (3), the network security monitoring module is used for monitoring the security state of the internal host of the system, and when the internal host of the system is abnormal, illegally operated or externally connected, an alarm is sent to the security supervision platform.

Preferably, in step (3), the sensing network layer includes a private network, an internet of things communication network, a local communication network, an internet of things intelligent gateway, a remote communication network, and an operator communication server.

Preferably, the internet of things intelligent gateway not only has a communication function, but also can realize data management and communication protocol conversion of a sensing network platform.

Preferably, the intelligent gateway of the internet of things is internally provided with an RF communication module and a 5G communication module.

Preferably, in step (6), the connection request is a transmission control protocol or a user datagram protocol.

The high-concurrency high-availability Internet of things platform solution provided by the invention has the beneficial effects that:

1. the intelligent equipment remote control platform can be conveniently and rapidly controlled through intelligent equipment, is rich in content, simple and convenient to operate and strong in practicability, can well meet the remote control requirements of various manufacturers on the intelligent equipment, and has a good development prospect;

2. the invention establishes a stable, efficient and flexible information system operation and maintenance management system, provides powerful support for the normal operation of the Internet of things system, improves the operation efficiency of the information system and improves the service quality;

3. the invention can realize effective, accurate, real-time and safe information interaction between the object terminal and the manager and the user, and ensure the safety and stability of operation.

Drawings

FIG. 1 is a functional block diagram of the present invention;

FIG. 2 is a schematic block diagram of the sensor network layer of the present invention;

FIG. 3 is a schematic block diagram of the security administration platform of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a high-concurrency high-availability Internet of things platform solution comprises the following steps;

step 1: applying for a special APN from an operator and establishing a sensing network platform;

the sensing network platform comprises a local communication module, a remote communication module, a data management module and a communication protocol conversion module, wherein the local communication module is used for bidirectional communication between the communication module of the intelligent sensor of the Internet of things and the intelligent gateway of the Internet of things and is limited by communication distance;

step 2: installing the APN card with the set special line APN information and capable of using the intranet IP address into a controlled 5G module, and establishing a safety supervision platform;

the safety supervision platform comprises an event data management module, an analysis and statistics module, a control measure module and a grading reporting module; the event data management module is used for receiving real-time safety acquisition data of each module such as a network manager, an safety manager and the like and abnormal access and running state alarm information of the system; the analysis and statistic module is used for screening, comparing and analyzing the collected logs according to the alarm levels and categories, displaying the security events on the basis of multiple dimensions, and forming a statistic analysis report according to condition selection;

the control measure module is used for taking corresponding control measures for abnormal access or attack behaviors; the hierarchical reporting module is used for reporting to the upper-level supervision platform when a high-level security alarm event occurs, and the security supervision platform further comprises an auxiliary management module which realizes the dynamic management of the IP address and greatly reduces the maintenance workload of a system administrator;

and step 3: the 5G module of the controlled equipment performs user authentication on GGSN during the first operation, after the authentication is passed, the gateway is accessed to a sensing network layer where an equipment management server is located, the intelligent gateway of the Internet of things is installed outside the intelligent sensor, the intelligent gateway of the Internet of things is used as a central sensing node, and a plurality of intelligent sensors can be accessed simultaneously, so that the centralized communication and management of the intelligent sensors are realized;

the network security monitoring module is used for monitoring the security state of the host machine in the system and sending an alarm to the security supervision platform when the host machine in the system is abnormal, illegally operated or externally connected; the sensing network layer comprises a special network, an Internet of things communication network, a local communication network, an Internet of things intelligent gateway, a remote communication network and an operator communication server, the Internet of things intelligent gateway not only has a communication function, but also can realize data management and communication protocol conversion of a sensing network platform, and an RF communication module and a 5G communication module are arranged in the Internet of things intelligent gateway;

and 4, step 4: the equipment management server is connected to the Internet through a GRE router, can access the controlled equipment through an APN channel, and establishes a network security monitoring module;

and 5: the terminal equipment of the user can access the intelligent remote control system provided by the equipment management server through the public network IP address of the equipment management server to control the controlled equipment and establish a management layer, wherein the management layer comprises registration management, strategy management, access management and monitoring statistics;

step 6: when a user operates equipment through an intelligent remote control system, an equipment management server initiates a connection request to the controlled equipment through an internal network IP address of the specified controlled equipment and establishes a protective layer, wherein the protective layer comprises a safety channel, safety access, identity authentication, access control and data exchange, and the connection request is a transmission control protocol or a user datagram protocol;

and 7: after the connection is established, the equipment management server sends a control instruction to the controlled equipment and establishes a platform layer, wherein the platform layer comprises a platform bus, task scheduling, a message protocol, a safety interface and module management;

and 8: after receiving the instruction, the controlled equipment executes the instruction, completes the control operation and feeds back the operation result;

and step 9: after receiving the operation result, the equipment management server disconnects the TCP or UDP connection with the equipment, feeds the operation result back to the client, processes and analyzes the relevant data, and the system performs unified warning and processing on the operation status from each safety device according to the processing and analysis of the collected data, displays the operation fault status of the system by a unified display module and notifies the system by a unified notification means.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A high-concurrency high-availability Internet of things platform solution is characterized in that: comprises the following steps;

step 1: applying for a special APN from an operator and establishing a sensing network platform;

step 2: installing the APN card with the set special line APN information and capable of using the intranet IP address into a controlled 5G module, and establishing a safety supervision platform;

and step 3: the 5G module of the controlled equipment performs user authentication on GGSN during the first operation, after the authentication is passed, the gateway is accessed to a sensing network layer where an equipment management server is located, the intelligent gateway of the Internet of things is installed outside the intelligent sensor, the intelligent gateway of the Internet of things is used as a central sensing node, and a plurality of intelligent sensors can be accessed simultaneously, so that the centralized communication and management of the intelligent sensors are realized;

and 4, step 4: the equipment management server is connected to the Internet through a GRE router, can access the controlled equipment through an APN channel, and establishes a network security monitoring module;

and 5: the terminal equipment of the user can access the intelligent remote control system provided by the equipment management server through the public network IP address of the equipment management server to control the controlled equipment and establish a management layer;

step 6: when a user operates equipment through an intelligent remote control system, an equipment management server initiates a connection request to the controlled equipment through an internal network IP address of the specified controlled equipment and establishes a protective layer;

and 7: after the connection is established, the equipment management server sends a control instruction to the controlled equipment and establishes a platform layer;

and 8: after receiving the instruction, the controlled equipment executes the instruction, completes the control operation and feeds back the operation result;

and step 9: and after receiving the operation result, the equipment management server disconnects the TCP or UDP connection with the equipment, feeds back the operation result to the client, and performs related data processing and analysis.

2. The high-concurrency high-availability internet of things platform solution method according to claim 1, wherein the method comprises the following steps: the sensing network platform comprises a local communication module, a remote communication module, a data management module and a communication protocol conversion module.

3. The high-concurrency high-availability internet of things platform solution method according to claim 1, wherein the method comprises the following steps: the safety supervision platform comprises an event data management module, an analysis and statistics module, a control measure module and a grading reporting module;

the event data management module is used for receiving real-time safety acquisition data of each module such as a network manager, an installation manager and the like;

the analysis and statistics module is used for screening, comparing and analyzing the collected logs according to the alarm levels and categories;

the control measure module is used for taking corresponding control measures for abnormal access or attack behaviors;

the grading reporting module is used for reporting to the upper level supervision platform when a high level security alarm event occurs.

4. The high-concurrency high-availability internet of things platform solution method according to claim 3, wherein the method comprises the following steps: the safety supervision platform also comprises an auxiliary management module which realizes the dynamic management of the IP address.

5. The high-concurrency high-availability internet of things platform solution method according to claim 1, wherein the method comprises the following steps: in the step (3), the network security monitoring module is used for monitoring the security state of the host inside the system, and sending an alarm to the security supervision platform when the host inside the system is abnormal, illegally operated or externally connected.

6. The high-concurrency high-availability internet of things platform solution method according to claim 1, wherein the method comprises the following steps: in the step (3), the sensing network layer comprises a private network, an internet of things communication network, a local communication network, an internet of things intelligent gateway, a remote communication network and an operator communication server.

7. The high-concurrency high-availability internet of things platform solution method according to claim 6, wherein the method comprises the following steps: the intelligent gateway of the Internet of things not only has a communication function, but also can realize data management and communication protocol conversion of a sensing network platform.

8. The high-concurrency high-availability internet of things platform solution method according to claim 6, wherein the method comprises the following steps: an RF communication module and a 5G communication module are arranged in the intelligent gateway of the Internet of things.

9. The high-concurrency high-availability internet of things platform solution method according to claim 1, wherein the method comprises the following steps: in step (6), the connection request is a transmission control protocol or a user datagram protocol.

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